Do emulsifiers in salad dressings rapidly make the fats in them more athrogenic?

AlexKChen · 2023-05-26T14:31:23.542Z

Obesity and a high-cholesterol, high-fat diet are both well-established risk factors for atherosclerosis. In fact, obese individuals are two and a half times more likely to develop heart disease. However, the mechanistic link between obesity and atherosclerosis eludes scientists. The researchers behind this new study believe the link may be in how specific derivatives of natural emulsifiers in a Western diet alter the way that cells that line the intestines interact with gut-resident bacteria. “We study natural emulsifiers in the diet called phospholipids. For example, if you look at salad dressing and shake it up, it is the phospholipids, or emulsifiers, that keeps the oil in globules. Those emulsifiers can get modified by specific enzymes in the intestinal cells into very potent pro-inflammatory molecules in the body.”

Using a mouse model, researchers found that on a high-fat high-cholesterol diet, the cells that line the small intestine churn out reactive phospholipids that makes the intestinal lining more susceptible to invasion by the bacteria that live in the gut. “The normal defenses for intestinal lining cells to keep bacteria in the lumen of the intestine are reduced when they take up large amounts of cholesterol and fat. This also results in bacteria being able to come in direct contact with the cells lining your intestines called enterocytes. Without those defenses, this results in more bacterial products, like bacterial cell membranes that contain a toxin called endotoxin, getting into the bloodstream to cause inflammation.”

“People who are obese and people eating high-fat, high-cholesterol diets have higher levels of endotoxin in their blood. It’s not at the level of causing sepsis, but it causes a low level of inflammation. When the cholesterol and fat come into the mix, the endotoxin kind of turns up the thermostat on inflammation and that accelerates atherosclerosis and leads to increased heart attacks and strokes.”

Bicep · 2023-05-27T02:59:42.382Z

Thanks for this. I eat 3 egg yolks every morning, and only now I see that they are emulsifiers. I quit heavy cream because they have to add emulsifiers. Half and half works without.

Actually right now I’m using raw milk from the goats, but that’s another story.

Yes, I think this is a big deal.

KarlT · 2023-05-27T14:35:30.683Z

I’m struggling to make sense of this as there are contradictions in what is being stated.
Obesity is not a direct risk factor for heart disease. Eating eggs is not a risk factor. Sepsis requires infection. Too many contractions to take this seriously.

Bicep · 2023-05-27T18:46:11.019Z

I don’t know, maybe I’m worried about something that is not real, but in Lustgarten’s book about (the microbial burden and what you can do about it) microbes he cites papers where they give healthy 26 year old humans LPS (endotoxin) and they get T2D. The microbial burden can come through your gut wall if it is not managed carefully. Emulsifiers get the mucous layer out of the way and let bacteria through.

What Alex is quoting up there makes sense and follows what I read.

Neo · 2023-05-27T19:16:34.186Z

Thanks @AlexKChen , what is the source / underlying paper?

scta123 · 2023-05-27T19:45:48.088Z

I think it is this study:

https://www.jlr.org/article/S0022-2275(23)00043-3/fulltext

John_Hemming · 2023-05-27T19:46:03.787Z

It seems an interesting and potentially relevant argument, but we need to see the underlying paper to consider whether it is a valid thesis or not.

There is an interesting question as to why T2D is becoming more common.

AlexKChen · 2023-07-06T23:58:47.390Z

asbmb.org

High-fat diet ‘turns up the thermostat’ on atherosclerosis

Researchers show phospholipid derivatives from a Western diet promote increased levels of gut-derived bacterial toxins, systemic inflammation, atherosclerosis plaque formation.

arugula · 2023-07-13T21:27:04.019Z

I wonder about gellan gum. It’s in my alt milk. It’s a stabilizer, not an emulsifier.

AlexKChen · 2025-05-29T01:27:35.019Z

Karpathy cited a tweet/video about choosing low-emulsifier almond milk (at least whole foods contains SOME, but NOT AS MUCH as some other brands…).

Idk, I dont care about almond milk emulsifiers that much, I need food to be filling but like **stay tf away from primal kitchen avocado salad dressing w/emulsifiers

Do whole eggs “contain emulsifiers”?

Yes – egg yolk is itself a powerful, natural emulsifier.

Where the “emulsifier” lives	Main molecules	Typical amount in one large egg (≈ 50 g)	What they do
Yolk	• Phosphatidylcholine (‐“lecithin”) • Phosphatidylethanolamine	≈ 1.3 g total phospholipids, of which ~ 0.8–1 g is phosphatidylcholine (≈ 115–170 mg choline) (PubMed Central, PubMed Central)	Amphiphilic heads + hydrophobic tails sit at the oil–water interface, lowering surface tension and stabilising the emulsion (e.g. mayonnaise, hollandaise). (American Egg Board, MDPI)
White	Proteins such as ovalbumin & ovotransferrin	—	Provide some secondary emulsifying & foaming capacity, but far weaker than yolk.

So when you crack a whole egg into salad dressing or a blender, you’re supplying the emulsifier straight from the food itself—nothing “added” or synthetic.

How this differs from “added emulsifiers” on labels

Natural egg-yolk lecithin	Common processed-food emulsifiers (CMC, polysorbate-80, mono- & diglycerides)
Chemical class: phospholipid exactly like those in human cell membranes.	Synthetic surfactants or modified cellulose/fats not normally eaten in bulk.
Dose in a dish: typically ≤ 1 % of the finished mayo/dressing.	Can reach 3–5 % of product weight in ultra-processed foods.
Microbiome evidence: no data linking native yolk lecithin to mucus erosion; most studies focus on large supplemental choline → TMA/TMAO, a different pathway.	CMC & polysorbate-80 repeatedly thin the mucus layer and drive dysbiosis in mice; epidemiology now probing humans.
Regulatory status: “whole egg” or “egg yolk” on the ingredient line (nothing more).	Must appear individually on the label as emulsifiers.

In short, eating eggs gives you lecithin in its natural matrix, accompanied by protein, cholesterol, vitamins A/D/E/K, and carotenoids. That’s a world apart—biochemically and by dose—from purified emulsifiers sprinkled into plant-based milks or candy coatings.

Practical take-aways

Whole eggs already are an emulsifier; nothing additional is hidden inside.
“Lecithin” on an ingredients list usually means soy- or sunflower-derived phosphatidylcholine extracted and dried. Egg-derived lecithin exists but is costly, so the additive is almost always plant-based.
If you’re avoiding microbiome-disrupting emulsifiers, there is no evidence you need to exclude normal culinary use of eggs. The main gut-related caution with eggs concerns high choline → higher TMAO in some people, not mucus-layer stripping.

Feel free to ask if you want more on choline/TMAO metabolism or how egg proteins contribute to foams and emulsions in baking.

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Step 1 – roughly how much emulsifier you’re actually getting

Daily almond-milk habit	Volume	Typical gellan-gum level (0.02 – 0.03 % w/w)	Sunflower-lecithin level (order-of-magnitude estimate¹)	Total emulsifier load
½ gal (1.89 L)	1 900 g	0.38 – 0.57 g gellan	≈ 0.8 – 1.6 g lecithin	~1.2 – 2.2 g
¾ gal (2.84 L)	2 840 g	0.57 – 0.85 g gellan	≈ 1.2 – 2.4 g lecithin	~1.8 – 3.3 g

¹Blue Diamond, Silk, Chobani, etc. list sunflower lecithin ahead of gellan, which means it occurs at slightly higher weight than gellan but still < 0.5 % of the product; 0.04 – 0.12 % is the range used in beverage R-&-D trials (Blue Diamond, PMC, Shine Additives).

Step 2 – how that compares with doses that bother the gut

Emulsifier	Human safety/tolerance benchmark	Your maximum intake	Margin
Gellan gum (E 418)	EFSA: “no ADI needed”; human volunteers tolerated 200 mg · kg⁻¹ day⁻¹ for 3 weeks without issues (European Food Safety Authority)	0.85 g ÷ 70 kg ≈ 12 mg · kg⁻¹ day⁻¹	≥ 17 × lower
Xanthan / guar (if present)	EFSA: transient GI bloating above 214 mg · kg⁻¹ day⁻¹ for 10 days (PMC)	usually < 0.1 g total	> 200 × lower
Sunflower lecithin	GRAS; typical background exposure ~55 mg · kg⁻¹ day⁻¹ in Western diets (Oxford Academic)	2.4 g ÷ 70 kg ≈ 34 mg · kg⁻¹ day⁻¹	Within everyday range

The human controlled-feeding trial that did show mucus-layer erosion used 15 g day⁻¹ of carboxymethyl-cellulose (CMC) — not gellan or lecithin — for only 11 days (PMC). Your whole-day almond-milk quota delivers ~40 × less total emulsifier mass, and none of it is CMC or polysorbate-80, the two additives repeatedly implicated in the mouse colitis model (Nature, BioMed Central).

Step 3 – mechanistic considerations

Gellan, xanthan & guar are high-Mw polysaccharides. They are not surfactants; they thicken the continuous (water) phase. They are minimally fermented and largely recovered intact in stool; no mucus-stripping activity has been demonstrated in vivo.
Sunflower lecithin is a phospholipid mix. It’s chemically similar to egg-yolk lecithin and is hydrolysed to choline + fatty acids by pancreatic phospholipase A₂ long before it reaches the colon; again, no data link dietary lecithin to barrier erosion.
Synthetic surfactants (CMC, P80, sucrose fatty-acid esters, mono-diglycerides) can insert into micelles and bacterial envelopes; that is the class that triggers proximity of microbes to the epithelium in animal work. None of the mainstream unsweetened almond milks in the US market uses them.

Step 4 – so is ½–¾ gal a day “an issue”?

For the microbiome? Unlikely, provided your brand is free of CMC / polysorbate-80 / carrageenan. Your gellan + lecithin dose is well below levels considered safe in human and EFSA assessments, and mechanistic concern is low.
For nutrient balance? A bigger practical worry: drinking 2–3 L of ultra-dilute almond milk crowds out protein (1 g · cup⁻¹) and fiber; watch total calories and micronutrients.
Individual sensitivity exists. A minority of people in the CMC trial showed marked mucus thinning; if you have IBS/IBD and notice bloating or loose stools that track with almond-milk load, do an n = 1 trial off emulsifiers or switch to Elmhurst/MALK (no gums, no lecithin) or homemade.

How to minimise any residual risk

Scan the ingredient list – avoid products that name carboxymethylcellulose, cellulose gum, polysorbate-80, mono- & diglycerides, or carrageenan.
Rotate brands – spreads any additive exposure narrower and keeps the microbiome from adapting to one formulation.
DIY option – 1 cup soaked almonds : 4 cups water + pinch salt; add ¼ tsp sunflower lecithin only if you hate shaking.
Diversify fiber elsewhere – 25–30 g/day of mixed soluble & insoluble fiber (oats, psyllium, legumes, veggies) buffers whatever trace gums you ingest and feeds butyrate producers.

Bottom line: At ½–¾ gallon per day you’ll take in roughly 1–3 g of gellan + lecithin, a fraction of doses that raise red flags in either the toxicology or microbiome literature. Stay away from almond milks formulated with CMC or polysorbate-80 and the evidence says your gut barrier should be fine — the bigger question is whether that much low-protein milk is crowding out more nutrient-dense foods.